基于非线性开关微环谐振器结构的4对1线复用器全加法器的设计与实现

2023 3rd International Conference on Advances in Computing, Communication, Embedded and Secure Systems (ACCESS) Pub Date : 2023-05-18 DOI:10.1109/ACCESS57397.2023.10199758

S. Mahanty, Ajay Kumar, Ujjwal Sharma, Shalini Kumari, Sujan Adhikary, Kumar Pritam

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引用次数: 0

摘要

本文提出了基于微环谐振器(MRR)结构的非线性开关技术的四对一线路多路复用逻辑设计。考虑了A作为数据线，得到了期望的全加法器结果。采用基于MRR的全光交换技术，通过实现2 ~ 4线解码器，实现了4 ~ 1线多路复用逻辑系统配置，使系统更加紧凑和优化。2:4解码器电路理论上是通过级联两个或多个mrr来实现的。采用4对1多路复用器来实现全加法器电路增加了一些额外的优点，如可以获得所需的带宽，先进的数据处理。通过数学推导详细解释了所提出的电路设计的MRR开关活动，并通过MATLAB仿真验证了结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Design and Implementation of Full Adder using 4 to 1 line Multiplexer Based on Nonlinear Switching Micro Ring Resonator Structure

This paper intended to assert the designing of the four to one line multiplexer logic using nonlinear switching techniques based on Micro Ring Resonator (MRR) structure for the proposed full-adder circuit. And to get the desire result of full adder, for which ‘A’ as a data line has been considered. By using the MRR based all-optical switching technique the 4 to 1 line multiplexer logic system configuration has been achieved by applying the realization of the 2-to-4-line decoder to make the system more compact and optimized. The 2:4 decoder circuits have been theoretically implemented by cascading two or more MRRs. The using of 4 to 1 multiplexer to implement the full adder circuit adds some additional advantages such as desired bandwidth can be obtained, advanced data processing. The MRR switching activity, which is the proposed circuit design has been explained in detail with mathematical derivations and results have been verified by performing the MATLAB simulation.

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2023 3rd International Conference on Advances in Computing, Communication, Embedded and Secure Systems (ACCESS)

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